Abstract

Rattlesnakes perceive IR radiation with their pit organs. This enables them to detect and strike towards warm-blooded prey even in the dark. In addition, the IR sense allows rattlesnakes to find places for thermoregulation. Animate objects (e.g., prey) tend to move and thus cause moving IR images across the pit membrane. Even when an object is stationary, scanning head movements of rattlesnakes will result in moving IR images across the pit membrane.
We recorded the neuronal activity of IR-sensitive tectal neurons of the rattlesnake Crotalus atrox while stimulating the snakes with an IR source that moved horizontally at various velocities. As long as object velocity was low (angular velocity of ~5°/s) IR-sensitive tectal neurons hardly showed any responses. With increasing object velocity though, neuronal activity reached a maximum at ~50°/s. A further increase in object velocity up to ~120°/s resulted in a slight decrease of neuronal activity. Our results demonstrate the importance of moving stimuli for the snake’s IR detection abilities: in contrast to fast moving objects, stationary or slowly moving objects will not be detected when the snake is motionless, but might be detected by scanning head movements.

Keywords

Infrared reception Rattlesnake Velocity Motion Tectum opticum

Abbreviations

Notes

Acknowledgments

We thank Slawa Braun for animal care and Joachim Mogdans and Vera Schlüssel for critical reading of the manuscript. We also thank two anonymous reviewers for carefully reading and commenting on the manuscript. The authors acknowledge the financial support provided by the DFG (KO4835/1-1). Care and maintenance of experimental animals followed the guidelines for reptiles and venomous snakes. Animal housing and experiments were approved by the LANUVNRW (50.203.2-BN 7, 5/03).